Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, Cilt: 14 Sayı: 1, 49 - 52, 30.04.2020

Öz

Kaynakça

  • Emos MC, Agarwal S. Neuroanatomy, internal capsule. Jacksonville: StatPearls Publishing, Treasure Island (FL); 2019. Available from: https://www.ncbi.nlm.nih.gov/books/NBK542181/.
  • Chowdhury F, Haque M, Sarkar M, Ara S, Islam M. White fiber dissection of brain; the internal capsule: a cadaveric study. Turk Neurosurg 2010;20:314–22.
  • Johns P. Clinical neuroscience: an illustrated colour text. Edinburgh: Churchill Livingstone Elsevier; 2014.
  • Safadi Z, Grisot G, Jbabdi S, Tim Behrens T, Heilbronner S, Joe Mandeville J, Versace A, Phillips ML, Lehman JF, Yendiki A, Haber SN. Functional segmentation of the anterior limb of the internal capsule: linking white matter abnormalities to specific connections. J Neurosci 2018;38:2106–17.
  • Domin, M, Langner, S, Hosten, N, Lotze, M. Comparison of parameter threshold combinations for diffusion tensor tractography in chronic stroke patients and healthy subjects. PLoS One 2014;9:e98211.
  • Ferda J, Kastner J, Mukensnabl P, Choc M, Horemuzová J, Ferdová E, Kreuzberg B. Diffusion tensor magnetic resonance imaging of glial brain tumors. Eur J Radiol 2010;74:428-36.
  • Lee DH, Lee DW, Han BS. Topographic organization of motor fibre tracts in the human brain: findings in multiple locations using magnetic resonance diffusion tensor tractography. Eur Radiol 2016;26:1751-9.
  • Kumar A, Juhasz C, Asano E, Sundaram SK, Makki MI, Chugani DC, Chugani HT. Diffusion tensor imaging study of thecortical origin and course of the corticospinal tract in healthy children. AJNR Am J Neuroradiol 2009;30:1963-70.
  • Qian C, Tan F. Internal capsule: The homunculus distribution in the posterior limb. Brain Behav 2017;7:e00629.
  • Van Hecke W, Nagels G, Leemans A, Vandervliet E, Sijbers J, Parizel PM. Correlation of cognitive dysfunction and diffusion tensor MRI measures in patients with mild and moderate multiple clerosis. J Magn Reson Imaging 2010;31:1492-8.
  • Inal M, Unal B, Kala I, Turkel Y, Bilgili YK. ADC evaluation of the corticospinal tract in multiple sclerosis. Acta Neurol Belg 2015;115:105-9.
  • Hecht MJ, Fellner F, Fellner C, Hilz MJ, Heuss D, Neundörfer B. MRI-FLAIR images of the head show corticospinal tract alterations in ALS patients more frequently than T2-, T1- and proton-density- eighted images. J Neurol Sci 2001;186:37-44.
  • Kolasa M, Hakulinen U, Brander A, Hagman S, Dastidar P, Elovaara I, Sumelahti ML. Diffusion tensor imaging and disability progression in multiple sclerosis: A 4-year follow-up study. Brain Behav 2019;9:e01194.
  • Zikou AK, Kitsos G, Tzarouchi LC, Astrakas L, Alexiou GA, Argyropoulou MI. Voxel-based morphometry and diffusion tensor imaging of the optic pathway in primary open-angle glaucoma: a preliminary study. AJNR Am J Neuroradiol 2012;33:128-34.
  • Qian C, Tan F. Internal capsule: The homunculus distribution in the posterior limb. Brain Behav 2017;7:e00629.
  • Dos Santos EC, da Luz Veronez DA, de Almeida DB, Piedade GS, Oldoni C, de Meneses MS, Marques MS. Morphometric study of the internal globus pallidus using the Robert, Barnard, and Brown Staining Method. World Neurosurg 2019;126:e371-78.
  • Arıncı K, Elhan A. Anatomi II. Ankara: Güneş Kitabevi; 2014. p.313.

Morphometry of the internal capsule on MR images in adult healthy individuals

Yıl 2020, Cilt: 14 Sayı: 1, 49 - 52, 30.04.2020

Öz

Objectives: There is substantial information on the morphometric differences of the pathways passing through the internal capsule according to the dominant extremity; however, the diameters of the internal capsule in the horizontal plane have not been previously evaluated. The aim of this study was to evaluate the diameters of parts of the internal capsule (anterior limb, posterior limb and genu) and angle in between these parts in healthy subjects.
Methods: MRI images of 80 females and 37 males (age: 18–65) with no obvious intracranial pathology were evaluated. The diameters of the anterior and posterior limb and the genu of the internal capsule and the angle between the anterior and posterior limbs were measured.
Results: There was no statistically significant difference in measurements of internal capsule when compared bilaterally in all individuals (p>0.05). The right and left genu angles were significantly wider in females. This angle in the present study was found as 122°, while the classical knowledge reveals it as around 90°.
Conclusion: Understanding the normal morphometry of this region may help clinicians in the diagnosis and follow-up of some neurological diseases. Some morphometric characteristics of this region have shown differences from the classical knowledge. Further studies in larger samples should be done for re-evaluating the normal ranges of these morphometric values.

Kaynakça

  • Emos MC, Agarwal S. Neuroanatomy, internal capsule. Jacksonville: StatPearls Publishing, Treasure Island (FL); 2019. Available from: https://www.ncbi.nlm.nih.gov/books/NBK542181/.
  • Chowdhury F, Haque M, Sarkar M, Ara S, Islam M. White fiber dissection of brain; the internal capsule: a cadaveric study. Turk Neurosurg 2010;20:314–22.
  • Johns P. Clinical neuroscience: an illustrated colour text. Edinburgh: Churchill Livingstone Elsevier; 2014.
  • Safadi Z, Grisot G, Jbabdi S, Tim Behrens T, Heilbronner S, Joe Mandeville J, Versace A, Phillips ML, Lehman JF, Yendiki A, Haber SN. Functional segmentation of the anterior limb of the internal capsule: linking white matter abnormalities to specific connections. J Neurosci 2018;38:2106–17.
  • Domin, M, Langner, S, Hosten, N, Lotze, M. Comparison of parameter threshold combinations for diffusion tensor tractography in chronic stroke patients and healthy subjects. PLoS One 2014;9:e98211.
  • Ferda J, Kastner J, Mukensnabl P, Choc M, Horemuzová J, Ferdová E, Kreuzberg B. Diffusion tensor magnetic resonance imaging of glial brain tumors. Eur J Radiol 2010;74:428-36.
  • Lee DH, Lee DW, Han BS. Topographic organization of motor fibre tracts in the human brain: findings in multiple locations using magnetic resonance diffusion tensor tractography. Eur Radiol 2016;26:1751-9.
  • Kumar A, Juhasz C, Asano E, Sundaram SK, Makki MI, Chugani DC, Chugani HT. Diffusion tensor imaging study of thecortical origin and course of the corticospinal tract in healthy children. AJNR Am J Neuroradiol 2009;30:1963-70.
  • Qian C, Tan F. Internal capsule: The homunculus distribution in the posterior limb. Brain Behav 2017;7:e00629.
  • Van Hecke W, Nagels G, Leemans A, Vandervliet E, Sijbers J, Parizel PM. Correlation of cognitive dysfunction and diffusion tensor MRI measures in patients with mild and moderate multiple clerosis. J Magn Reson Imaging 2010;31:1492-8.
  • Inal M, Unal B, Kala I, Turkel Y, Bilgili YK. ADC evaluation of the corticospinal tract in multiple sclerosis. Acta Neurol Belg 2015;115:105-9.
  • Hecht MJ, Fellner F, Fellner C, Hilz MJ, Heuss D, Neundörfer B. MRI-FLAIR images of the head show corticospinal tract alterations in ALS patients more frequently than T2-, T1- and proton-density- eighted images. J Neurol Sci 2001;186:37-44.
  • Kolasa M, Hakulinen U, Brander A, Hagman S, Dastidar P, Elovaara I, Sumelahti ML. Diffusion tensor imaging and disability progression in multiple sclerosis: A 4-year follow-up study. Brain Behav 2019;9:e01194.
  • Zikou AK, Kitsos G, Tzarouchi LC, Astrakas L, Alexiou GA, Argyropoulou MI. Voxel-based morphometry and diffusion tensor imaging of the optic pathway in primary open-angle glaucoma: a preliminary study. AJNR Am J Neuroradiol 2012;33:128-34.
  • Qian C, Tan F. Internal capsule: The homunculus distribution in the posterior limb. Brain Behav 2017;7:e00629.
  • Dos Santos EC, da Luz Veronez DA, de Almeida DB, Piedade GS, Oldoni C, de Meneses MS, Marques MS. Morphometric study of the internal globus pallidus using the Robert, Barnard, and Brown Staining Method. World Neurosurg 2019;126:e371-78.
  • Arıncı K, Elhan A. Anatomi II. Ankara: Güneş Kitabevi; 2014. p.313.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Sağlık Kurumları Yönetimi
Bölüm Original Articles
Yazarlar

Ozan Turamanlar

Abdülkadir Bilir 0000-0003-0633-9542

Erdal Horata 0000-0003-1359-228X

Tolga Ertekin 0000-0003-1756-4366

Çiğdem Özer Gökaslan 0000-0001-5345-1735

Hazal Emeksiz Bu kişi benim 0000-0002-1619-4108

Yayımlanma Tarihi 30 Nisan 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 14 Sayı: 1

Kaynak Göster

APA Turamanlar, O., Bilir, A., Horata, E., Ertekin, T., vd. (2020). Morphometry of the internal capsule on MR images in adult healthy individuals. Anatomy, 14(1), 49-52.
AMA Turamanlar O, Bilir A, Horata E, Ertekin T, Özer Gökaslan Ç, Emeksiz H. Morphometry of the internal capsule on MR images in adult healthy individuals. Anatomy. Nisan 2020;14(1):49-52.
Chicago Turamanlar, Ozan, Abdülkadir Bilir, Erdal Horata, Tolga Ertekin, Çiğdem Özer Gökaslan, ve Hazal Emeksiz. “Morphometry of the Internal Capsule on MR Images in Adult Healthy Individuals”. Anatomy 14, sy. 1 (Nisan 2020): 49-52.
EndNote Turamanlar O, Bilir A, Horata E, Ertekin T, Özer Gökaslan Ç, Emeksiz H (01 Nisan 2020) Morphometry of the internal capsule on MR images in adult healthy individuals. Anatomy 14 1 49–52.
IEEE O. Turamanlar, A. Bilir, E. Horata, T. Ertekin, Ç. Özer Gökaslan, ve H. Emeksiz, “Morphometry of the internal capsule on MR images in adult healthy individuals”, Anatomy, c. 14, sy. 1, ss. 49–52, 2020.
ISNAD Turamanlar, Ozan vd. “Morphometry of the Internal Capsule on MR Images in Adult Healthy Individuals”. Anatomy 14/1 (Nisan 2020), 49-52.
JAMA Turamanlar O, Bilir A, Horata E, Ertekin T, Özer Gökaslan Ç, Emeksiz H. Morphometry of the internal capsule on MR images in adult healthy individuals. Anatomy. 2020;14:49–52.
MLA Turamanlar, Ozan vd. “Morphometry of the Internal Capsule on MR Images in Adult Healthy Individuals”. Anatomy, c. 14, sy. 1, 2020, ss. 49-52.
Vancouver Turamanlar O, Bilir A, Horata E, Ertekin T, Özer Gökaslan Ç, Emeksiz H. Morphometry of the internal capsule on MR images in adult healthy individuals. Anatomy. 2020;14(1):49-52.

Anatomy is the official journal of Turkish Society of Anatomy and Clinical Anatomy (TSACA).